Linearly polarized light emission from quantum dots with plasmonic nanoantenna arrays.

Polarizers provide convenience in generating polarized light, meanwhile their adoption raises :problems of extra weight, cost, and energy loss. Aiming to realize polarizer-free polarized light sources, herein, We present a plasmonic approach to achieve direct generation of linearly polarized optical waves at the nanometer scale. Periodic slot nanoantenna arrays are fabricated, which are driven by the transition dipole moments of luminescent semiconductor quantum dots. By harnessing interactions between quantum dots and scattered fields from the nanoantennas, spontaneous emission with a high degree of linear polarization is achieved from such hybrid:,antenna system with polarization perpendicular to antenna Slot. We also demonstrate that the polarization is engineerable in aspects of both spectrum and magnitude by tailoring plasmonic resonance of the antenna arrays: Our findings will establish a basis for the development of innovative polarized light-emitting devices, which are useful in optical displays, spectroscopic techniques, optical telecommunications, and So forth.